P G Comens scite author profile

The effects of interleukin 1 (IL-1) on glucose-induced insulin secretion from isolated rat islets of Langerhans have been examined. IL-1 both inhibits and stimulates glucose-induced insulin secretion depending on the experimental design. Inhibition of glucose-induoed insulin secretion was observed after a 15-h treatment of islets with either purified IL-1, murine recombinant IL-1 (rIL-1), or human rIL-1. r IL-1 inhibition of glucose-induced insulin secretion was dose dependent with half-maximal inhibition observed at 25 pM human r IL-1. Basal insulin secretion was not affected by r IL-1 treatment. Mannose- and leucine-induced insulin secretion was also inhibited by a 15-h treatment with human rIL-1. Islets treated 15 h with inhibitory concentrations of murine IL-1 were morphologically intact, well granulated, and retained normal concentrations of insulin compared with control islets. Furthermore, human rIL-1 treatment did not affect the islet plasma membrane permeability as assessed by the measurement of the islet intracellular volume. Finally, the viability of islets treated 15 h with murine rIL-1 was demonstrated by the observation that the inhibitory effects of murine rIL-1 on glucose-induced insulin secretion were reversible. In addition to the inhibitory effects of IL-1 on glucose-induced insulin secretion, purified IL-1 and human rIL-1 had stimulatory effects on glucose-induced insulin secretion under the following conditions: 1) a 90-min incubation with purified IL-1 (10% vol/vol) or in the presence of human r IL-1 (1400 pM) or 2) a 15-h incubation with relatively low concentrations of human rIL-1 (0.5 or 5 pM). In conclusion, IL-1 has complex dual effects on glucose-induced insulin secretion that include both stimulation and inhibition and depend on IL-1 concentration and time of incubation. These studies suggest that IL-1 may have a physiological role as a potent modulator of insulin secretion by islets of Langerhans.

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Arachidonic acid metabolism in isolated pancreatic islets

Turk

Wolf

Comens

et al. 1985

Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metaboli

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The digitonin-permeabilized pancreatic islet model. Effect of myo-inositol 1,4,5-trisphosphate on Ca2+ mobilization

Wolf¹,

Comens²,

Ackermann³

et al. 1985

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Glucose-induced insulin secretion is thought to be mediated by submicromolar increases in intracellular Ca2+, although the intracellular processes are not well understood. We have used the previously characterized digitonin-permeabilized insulin-secreting pancreatic islet model to study the role of myo-inositol 1,4,5-trisphosphate (IP3), a putative second messenger for mobilization of intracellular Ca2+. Ca2+ efflux from the endoplasmic reticulum was studied with or without vanadate present to inhibit Ca2+ reuptake. IP3 (10 microM), at a free Ca2+ level of 0.06 microM, increased Ca2+ release by 30% and, when vanadate was present, by 50%. Maximal and half-maximal Ca2+ release was observed at 10 microM- and 2.5 microM-IP3, respectively. IP3 provoked a rapid release that was followed by slow reuptake. Reuptake was diminished in the presence of vanadate. Inositol 1,4-bisphosphate, inositol 1-phosphate and other phosphoinositide metabolites did not have any significant effect. Because increases in Ca2+ levels in the submicromolar range have been previously shown to induce insulin release in digitonin-permeabilized islets, our results are consistent with the concept of IP3 serving as a second messenger for insulin secretion.

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Protein phosphorylation in permeabilized pancreatic islet cells

Colca¹,

Wolf²,

Comens³

et al. 1985

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A system of digitonin-permeabilized islet cells was developed to characterize Ca2+- and calmodulin-dependent protein phosphorylation further and to determine whether activation of this membrane-bound process was sufficient for initiation of Ca2+-stimulated insulin secretion. The efficacy of digitonin in permeabilizing the plasma membrane was assessed by Trypan Blue exclusion, by extracellular leakage of lactate dehydrogenase, and by permeability to [gamma-32P]ATP. This treatment did not detectably alter the ultrastructure of the permeabilized cells. Digitonin was equally effective when presented to islet cells that had been previously dispersed or directly to intact isolated islets. The Ca2+- and calmodulin-dependent phosphorylation of endogenous membrane-bound substrates could be demonstrated in the permeabilized cells incubated with [gamma-32P]ATP. This activity displayed characteristics that were similar to those described for the protein kinase measured in subcellular fractions and was dependent on addition of exogenous calmodulin, indicating that calmodulin had been removed from the kinase by permeabilization of the cells. Ca2+-dependent insulin release by the digitonin-permeabilized islet was demonstrated, with half-maximal release occurring at 0.1 microM-free Ca2+ and maximal secretion at 0.2 microM-free Ca2+. Under these conditions, calmodulin did not further enhance insulin release, although a stimulatory effect of calmodulin was observed in the absence of free Ca2+. These studies indicate that the permeabilized-islet model will be useful in dissecting out the factors involved in Ca2+-activated insulin secretion.

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Identification and Characterization of Insulin Receptors in Basolateral Membranes of Dog Intestinal Mucosa

Gingerich

Gilbert

Comens

et al. 1987

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Little is known about hormonal regulation of substrate transport and metabolism in the mucosal lining of the small intestine. Because insulin regulates these functions in other tissues by binding to its receptor, we have investigated the presence of insulin receptors in canine small intestinal mucosa with basolateral membranes (BLM) and brush border membranes (BBM) prepared by sorbitol density centrifugation. A14-[125I]iodoinsulin was used to study binding and structural characteristics of specific insulin receptors in BLM. Analysis of receptors in BLM identified binding sites with high affinity (Kd 88 pM) and low capacity (0.4 pmol/mg protein) as well as with low affinity (Kd 36 nM) and high capacity (4.7 pmol/mg protein). Binding was time, temperature, and pH dependent, and 125I-labeled insulin dissociation was enhanced in the presence of unlabeled insulin. Cross-reactivity of these receptors to proinsulin, IGF-II, and IGF-I was 4, 1.8, and less than 1%, respectively. Covalent cross-linking of labeled insulin to BLM insulin receptors with disuccinimidyl suberate revealed a single 135,000-Mr band that was completely inhibited by unlabeled insulin. There was a 16-fold greater specific binding of insulin to BLM (39.0 +/- 2.4%) than to BBM (2.5 +/- 0.6%). These results demonstrate the presence of a highly specific receptor for insulin on the vascular, but not the luminal, surface of the small intestinal mucosa in dogs, and suggest that insulin may play an important role in the regulation of gastrointestinal physiology.

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P G Comens

Interleukin 1 is Potent Modulator of Insulin Secretion from Isolated Rat Islets of Langerhans

Arachidonic acid metabolism in isolated pancreatic islets

The digitonin-permeabilized pancreatic islet model. Effect of myo-inositol 1,4,5-trisphosphate on Ca2+ mobilization

Protein phosphorylation in permeabilized pancreatic islet cells

Identification and Characterization of Insulin Receptors in Basolateral Membranes of Dog Intestinal Mucosa

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